<p>➀ Researchers at the University of Oxford demonstrated a method to link quantum computers using light-based quantum gate teleportation, achieving stable communication between two ion-based modules without physical connections; </p><p>➁ The setup used trapped ions (strontium for photonic communication and calcium for data processing) in vacuum chambers, with entangled photons enabling cross-module operations at 86.2% gate accuracy and 97% entanglement fidelity; </p><p>➂ Successful execution of Grover's search algorithm validated distributed quantum computing, highlighting a scalable approach for modular quantum systems through photonic entanglement.</p>
Related Articles
- The Emerging Wonderland Of ‘LIVING’ Computer Systems3 days ago
- Stroke Rehabilitation: TU Ilmenau Develops Method to Restore Leg Mobility7 days ago
- Flying Assistants for Atmospheric Research: EAH Jena Receives Funding for Pioneering MAVAS Project11 days ago
- 800V Power Design Redefines AI Infrastructure19 days ago
- Compact SiP For Datacenter Management20 days ago
- DLR Award for TU Ilmenau Scientists: Monitoring Brain Activity in Spaceabout 1 month ago
- ITRI and NPL to co-operate on R&D, personnel exchanges and standardsabout 1 month ago
- Second Place for UDE Team at DLR Challenge 2025 Industry in INNOSpace Masters: Brainwave Measurements for Mental Healthabout 2 months ago
- Top Stories of the Week: Aug. 25-29, 20252 months ago
- Aerospace demonstrates optical crosslink between CubeSats2 months ago